Provided is a storage apparatus in which the resonant frequency of carriage driving coils is high and precision in positioning a carriage is excellent. The storage apparatus is, for example, an optical disk drive having rails laid parallel to one radius of a disk, and able to read or writing data from or on the disk using a carriage movable along the rails. The carriage is moved using driving coils mounted on the flanks of the carriage and magnetic circuits each composed of a permanent magnet and yokes which are located outside the carriage. The driving coils are each shaped like a parallelepiped whose sides extending in a direction along the flank of the carriage are longer than other sides extending in a direction perpendicular to the flank. The permanent magnet or yokes of each magnetic circuit is opposed to a plane containing the long sides of each of the parallelepiped-shaped driving coils. Consequently, the rigidity of the carriage driving coils has been raised and precision in positioning the carriage has been improved.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A storage apparatus having support rails laid down on a plane opposed to a storage medium in a direction transverse to the tracks on the storage medium, and accessing the storage medium using a carriage movable along the support rails, comprising: driving coils mounted on a plurality of flanks of said carriage for driving said carriage; and magnetic circuits each composed of a permanent magnet and yokes; said driving coils are each shaped like a rectangular parallelepiped whose sides extending in a direction along the flanks of said carriage are longer than other sides extending in a direction perpendicular to the flank; and said permanent magnet or yokes of each of said magnetic circuits is opposed to a plane containing the long sides of each of said rectangular parallelepiped-shaped driving coils; wherein support members for holding said driving coils are placed on and under said driving coils mounted on said flanks of said carriage in order to thus clamp the tops and bottoms of said driving coils; wherein said support members completely cover a surface area of said driving coils.
2. A storage apparatus according to claim 1 wherein the length of the sides of each of said rectangular parallelepiped-shaped driving coils extending in the direction perpendicular to the flank of said carriage falls within 0.55 to 0.65 of the length of the sides of each of said rectangular parallelepiped-shaped driving coils extending in the direction along the flank of said carriage.
3. A storage apparatus according to claim 1 , wherein the edges of each of said support members on the opposite sides of each of said driving coils are extended to clamp the thick portion of the driving coil on the opposite sides thereof.
4. A storage apparatus according to claim 1 , wherein a magnetic body is attached to each of the distal edges of said support members to stabilize the carriage.
5. A storage apparatus according to claim 1 , wherein a link plate is attached to said carriage to link the bottoms of said driving coils mounted on the flanks of said carriage.
6. A storage apparatus according to claim 5 , wherein said link plate has ribs formed for improving the rigidity of said link plate.
7. A storage apparatus according to claim 6 , wherein said link plate holds a flexible printed-circuit board for supplying power to electrical parts incorporated in said carriage.
8. A storage apparatus according to claim 5 , wherein the weight of said link plate is set so that the center of gravity of said carriage having said link plate attached thereto will be aligned with the point at which a driving force exerted by said driving coils is applied to said carriage, in a direction of movement in which said carriage moves.
9. A storage apparatus according to claim 5 , wherein said link plate is made of a nonmagnetic material.
10. A storage apparatus according to claim 1 wherein said support members are formed as integral parts of the carriage by resin molding.
11. A storage apparatus according to claim 1 wherein said support members includes an upper and lower support members as separate members respectively on a top and bottom surface of said carriage driving coils.
12. A storage apparatus according to claim 1 wherein said support members are elongated support plates covering a top and bottom surface of said carriage driving coils.
13. A storage apparatus having support rails laid down on a plane opposed to a storage medium in a direction transverse to the tracks on the storage medium, and accessing the storage medium using a carriage movable along the support rails, comprising: driving coils mounted on a plurality of flanks of said carriage for driving said carriage; and magnetic circuits each composed of a permanent magnet and yokes; said driving coils are each shaped like a rectangular parallelepiped whose sides extending in a direction along the flanks of said carriage are longer than other sides extending in a direction perpendicular to the flank; and said permanent magnet or yokes of each of said magnetic circuits is opposed to a plane containing the long sides of each of said rectangular parallelepiped-shaped driving coils; wherein support members for holding said driving coils are placed on and under said driving coils mounted on said flanks of said carriage in order to thus clamp the tops and bottoms of said driving coils; wherein at least one of said support members further comprises an extension that extends from a free edge of said driving coils towards a portion of said driving coils.
14. A storage apparatus according to claim 13 wherein said extension is of a trapezoidal shape.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
January 31, 2000
January 27, 2004
Browse 5M+ US patents with plain-English claim translations and AI-generated analysis.